ECE 60000 - Random Variables and Signals
Course Details
Credits: 3
Areas of Specialization:
- Communications, Networking, Signal & Image Processing
Counts as:
Normally Offered:
Each Fall, Spring
Campus/Online:
On-campus and online
Requisites by Topic:
Calculus and Fourier transforms
Catalog Description:
Engineering applications of probability theory. Problems on events, independence, random variables, distribution and density functions, expectations, and characteristic functions. Dependence, correlation, and regression; multi-variate Gaussian distribution. Stochastic processes, stationarity, ergodicity, correlation functions, spectral densities, random inputs to linear systems; Gaussian processes.
Required Text(s):
- Probability, Random Variables, and Stochastic Processes , 4th Edition , A. Papoulis and S. U. Pillai , McGraw-Hill , 2001 , ISBN No. 9780073660110
Recommended Text(s):
None.
Lecture Outline:
| Topic | |
|---|---|
| 1 | Random experiments |
| 2 | Probability spaces |
| 3 | Conditional probability |
| 4 | Statistical independence of events |
| 5 | Compound and repeated random experiments |
| 6 | Random variables |
| 7 | Probability distributions and density functions of random variables |
| 8 | Expectation |
| 9 | Characteristic functions and moment generating functions |
| 10 | Multiple random variables defined on a random experiment |
| 11 | Statistical independence of random variables |
| 12 | Correlation |
| 13 | Sequences of random variables and stochastic convergence |
| 14 | The weak law of large numbers |
| 15 | The central limit theorem |
| 16 | Stochastic processes |
| 17 | Stationarity |
| 18 | Correlation and covariance functions |
| 19 | Power spectral density |
| 20 | Gaussian random processes through linear systems |
| 21 | Point and renewal processes |
| 22 | The Poisson process |
| 23 | Erlang n-th arrival time of a homogeneous Poisson process |
Assessment Method:
Exams. (3/2022)